Company Filing History:
Years Active: 2022-2025
Title: Innovations of Toshiki Ozaki in Transmission Belt Technology
Introduction
Toshiki Ozaki is a notable inventor based in Hyogo, Japan, recognized for his contributions to the field of transmission belt technology. With a total of 2 patents, he has made significant advancements that enhance the performance and durability of power transmission belts.
Latest Patents
Ozaki's latest patents include a "Transmission Belt Core Wire Production Method" and a "Transmission Belt Production Method." The first patent describes a method for producing a cord for a power transmission belt, which involves a two-step treatment process. The first step treats an untreated yarn with a resin component to create a first treated yarn. The second step further processes this yarn with a combination of resorcin and formaldehyde condensate, unmodified latex, and an acid-modified diene-based polymer to yield a second treated yarn. The second patent focuses on a transmission belt that features a rubber layer made from a vulcanized rubber composition, which includes an ethylene-α-olefin elastomer, silica filler, a sulfur-based vulcanizing agent, and a curable amino resin. This innovative design also incorporates a fiber member that is in contact with the rubber layer, enhancing the belt's overall functionality.
Career Highlights
Ozaki is currently employed at Mitsuboshi Belting Ltd., where he continues to develop and refine technologies related to transmission belts. His work has been instrumental in improving the efficiency and reliability of these essential components in various mechanical systems.
Collaborations
Throughout his career, Ozaki has collaborated with talented individuals such as Yorifumi Hineno and Shunsuke Isoe. These partnerships have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Toshiki Ozaki's contributions to transmission belt technology exemplify the impact of dedicated inventors in advancing industrial applications. His innovative methods and designs continue to shape the future of power transmission systems.